Overview

As the environmental impact of existing construction and building materials comes under increasing scrutiny, the search for more eco-efficient solutions has intensified. Nanotechnology offers great potential in this area and is already being widely used to great success. Nanotechnology in eco-efficient construction is an authoritative guide to the role of nanotechnology in the development of eco-efficient construction materials and sustainable construction. Following an introduction to the use of nanotechnology in eco-efficient construction materials, part one considers such infrastructural applications as nanoengineered cement-based materials, nanoparticles for high-performance and self-sensing concrete, and the use of nanotechnology to improve the bulk and surface properties of steel for structural applications. Nanoclay-modified asphalt mixtures and safety issues relating to nanomaterials for construction applications are also reviewed before part two goes on to discuss applications for building energy efficiency. Topics explored include thin films and nanostructured coatings, switchable glazing technology and third generation photovoltaic (PV) cells, high-performance thermal insulation materials, and silica nanogel for energy-efficient windows. Finally, photocatalytic applications are the focus of part three, which investigates nanoparticles for pollution control, self-cleaning and photosterilisation, and the role of nanotechnology in manufacturing paints and purifying water for eco-efficient buildings. Nanotechnology in eco-efficient construction is a technical guide for all those involved in the design, production and application of eco-efficient construction materials, including civil engineers, materials scientists, researchers and architects within any field of nanotechnology, eco-efficient materials or the construction industry.

Full Product Details

Author:   Fernando Pacheco-Torgal (Principal Investigator, C-TAC Research Centre, University of Minho, Portugal) ,  Maria Vittoria Diamanti (Polytechnic of Milan, Italy) ,  Ali Nazari (Swinburne University of Technology, Victoria, Australia) ,  Claes Goran-Granqvist (Professor, Department of Engineering Science, Uppsala University, Sweden)
Publisher:   Elsevier Science & Technology
Imprint:   Woodhead Publishing Ltd
Dimensions:   Width: 15.60cm , Height: 2.40cm , Length: 23.40cm
Weight:   0.640kg
ISBN:  

9780081015995

ISBN 10:   0081015992
Pages:   458
Publication Date:   30 October 2018
Audience:   Professional and scholarly ,  Professional & Vocational
Replaced By:   9780081026410
Format:   Paperback
Publisher's Status:   Active
Availability:   In stock  
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Table of Contents

Contributor contact details Chapter 1: Introduction to nanotechnology in eco-efficient construction Abstract: 1.1 Introduction 1.2 The need for nanotechnology in the construction sector 1.3 Outline of the book Part I: Infrastructural applications Chapter 2: Nanoscience and nanoengineering of cement-based materials Abstract: 2.1 Introduction 2.2 Nanoscience of cement-based materials 2.3 Nanoengineering of cement-based materials 2.4 Conclusion Chapter 3: Nanoparticles for high performance concrete (HPC) Abstract: 3.1 Introduction 3.2 Concrete with nanoparticles 3.3 The problem of efficient nanoparticle dispersion 3.4 Conclusions Chapter 4: Self-sensing concrete with nanomaterials Abstract: 4.1 Introduction 4.2 Studying conductive admixtures in concrete 4.3 Influence of conductive admixtures on the mechanical properties of concrete 4.4 Influence of conductive admixtures on the electrical properties of concrete beams 4.5 Strain and damage in concrete beams (self-diagnosing of damage) 4.6 Diphasic electrical conductive materials 4.7 Conclusions Chapter 5: The use of nanotechnology to improve the bulk and surface properties of steel for structural applications Abstract: 5.1 Introduction 5.2 Research relating to nanocomposite steel 5.3 Properties of nanocomposite steel 5.4 Future trends Chapter 6: Nanoclay-modified asphalt mixtures for eco-efficient construction Abstract: 6.1 Introduction 6.2 Research on nanoclay-modified asphalt mixtures 6.3 Material and methods 6.4 Rheological tests and results 6.5 Mechanical testing of asphalt mixtures 6.6 Conclusion 6.7 Future trends Chapter 7: Safety issues relating to nanomaterials for construction applications Abstract: 7.1 Introduction to nanotoxicity 7.2 Potential nano-hazards of manufactured nanomaterials (MNMs) utilized in construction 7.3 Lifecycle of nano-enabled structures 7.4 Toxicity profiling for nanomaterials 7.5 Future trends and conclusions Part II: Applications for building energy efficiency Chapter 8: Thin films and nanostructured coatings for eco-efficient buildings Abstract: 8.1 Introduction 8.2 Major thin film technologies and some illustrative examples 8.3 Large-scale manufacturing 8.4 Conclusion and future trends Chapter 9: High performance thermal insulation materials for buildings Abstract: 9.1 Introduction 9.2 Heat transfer in thermal insulators 9.3 State-of-the-art insulators 9.4 Applications 9.5 Future trends Chapter 10: Silica nanogel for energy-efficient windows Abstract: 10.1 Introduction 10.2 Aerogels for windows 10.3 Current applications of aerogels in buildings 10.4 Performance of nanogel windows 10.5 Future trends Chapter 11: Switchable glazing technology for eco-efficient construction Abstract: 11.1 Introduction 11.2 Electrochromics: materials and devices 11.3 Thermochromics: materials and devices 11.4 Future trends in electrochromic and thermochromic glazing Chapter 12: Third generation photovoltaic (PV) cells for eco-efficient buildings and other applications Abstract: 12.1 Introduction 12.2 History of photovoltaic (PV) cells 12.3 Functions of a photovoltaic (PV) cell 12.4 Overview of photovoltaic (PV) technology: first, second and third generation cells 12.5 The use of nanotechnology in photovoltaic (PV) technology 12.6 Future trends Part III: Photocatalytic applications Chapter 13: Concrete, mortar and plaster using titanium dioxide nanoparticles: applications in pollution control, self-cleaning and photo sterilization Abstract: 13.1 Introduction 13.2 Principles of heterogeneous photocatalysis 13.3 Applications of semiconductor photocatalysis 13.4 TiO2 in cement-based materials 13.5 Efficiency of TiO2 in the built environment 13.6 Pilot projects and field tests 13.7 Existing patents and standards relating to photocatalytic cementitious materials Chapter 14: Self-cleaning tiles and glasses for eco-efficient buildings Abstract: 14.1 Introduction 14.2 Important production parameters 14.3 Mechanism of self-cleaning glasses and tiles 14.4 Future trends Chapter 15: Nanotechnology in manufacturing paints for eco-efficient buildings Abstract: 15.1 Introduction 15.2 Application of photocatalytic paints in an outdoor environment 15.3 Application of photocatalytic paints in an indoor environment 15.4 Potential formation of by-products 15.5 Future trends Chapter 16: Nanotechnology for domestic water purification Abstract: 16.1 Introduction 16.2 Nanomaterials and water purification 16.3 The need for nanomaterials in water purification 16.4 Types, properties and uses of nanomaterials in water purification 16.5 Synthesis of nanomaterials 16.6 Nanotechnology: health, safety and environment 16.7 Domestic water purification: challenges to bring about an integrated system 16.7.2 Challenges with development of integrated nano-based systems for water purification Index

Reviews

<i> The book s focus on eco-construction, its depth of coverage, and style of writing by various contributing authors makes it understandable by readers at various levels. Researchers, educators, captains of industry, and policy makers would find the book interesting and useful. --</i><b><i>MaterialsViews.com, </i> April 8, 2014</b> </p>

Author Information

F.Pacheco Torgal is a Principal Investigator at C-TAC Research Centre, University of Minho. He holds the Counsellor title of the Portuguese Engineers Association. Authored almost 350 publications some that were cited by Highly Cited authors (SCI h-index>60) and in high impact factor journals like Nature Reviews Mat. (IF=52), Nature Energy (IF=47), Progress in Mater. Science (I.F=24), Physics Reports (IF=20) and Nature Climate Change (I.F=19). Citations received in ISI WoS journals-2819 (h-index=29), citations received in Scopus journals- 3580 (h-index=31). Citations prediction for the year 2029 (around 5.500 citations on WoS, 7.500 on Scopus (already has 7000 MR, h=45) and 16.000 citations on scholar google). Member of the editorial board of 9 international journals, 4 referenced on the Web of Science and three referenced on Scopus. Grant assessor for several scientific institutions in 14 countries, UK, US, Netherlands, China, France, Australia, Croatia, Kazakhstan, Belgium, Spain, Czech Republic, Saudi Arabia, UA.Emirates, Poland and also the EU Commission. Invited reviewer for 133 international journals for which he reviewed so far almost 900 papers. Lead Editor of 19 international books (9 being on the Master Book List of Web of Science). Maria Vittoria Diamanti is an Assistant Professor in the Department of Chemistry, Materials and Chemical Engineering at the Polytechnic of Milan, Italy. Her current research interests are: titanium oxides, nanostructured surfaces, photocatalysis, self-cleaning surfaces, spectrophotometry and reflectometry, corrosion, and durability of reinforced concrete. Ali Nazari is a Postdoctoral research Fellow at Centre for Sustainable Infrastructure, Faculty of Science, Engineering and Technology, Swinburne University of Technology, Victoria, 3122, Australia Claes Goran-Granqvist is Professor in the Department of Engineering Science at Uppsala University, Sweden. Professor Granqvist's research is focused on optical and electrical properties of materials, especially thin films for energy efficiency and solar energy utilization. He has published around 730 research papers in mostly refereed journals, over 30 books, had invited conference presentations at about 250 international conferences and chaired about 30 international meetings.

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